use std::{ pin::Pin, task::{self, Poll}, }; use tokio::io::{self, AsyncBufRead, AsyncRead, ErrorKind::InvalidData}; // Required reading for understanding this module. use crate::{ nar::{self, wire::PadPar}, wire::{self, BytesReader}, }; mod read; #[cfg(test)] mod test; pub type Reader<'a> = dyn AsyncBufRead + Unpin + Send + 'a; /// Start reading a NAR file from `reader`. pub async fn open<'a, 'r>(reader: &'a mut Reader<'r>) -> io::Result> { read::token(reader, &nar::wire::TOK_NAR).await?; Node::new(reader).await } pub enum Node<'a, 'r: 'a> { Symlink { target: Vec, }, File { executable: bool, reader: FileReader<'a, 'r>, }, Directory(DirReader<'a, 'r>), } impl<'a, 'r: 'a> Node<'a, 'r> { /// Start reading a [Node], matching the next [wire::Node]. /// /// Reading the terminating [wire::TOK_PAR] is done immediately for [Node::Symlink], /// but is otherwise left to [DirReader] or [BytesReader]. async fn new(reader: &'a mut Reader<'r>) -> io::Result { Ok(match read::tag(reader).await? { nar::wire::Node::Sym => { let target = wire::read_bytes(reader, 1..=nar::wire::MAX_TARGET_LEN).await?; if target.contains(&0) { return Err(InvalidData.into()); } read::token(reader, &nar::wire::TOK_PAR).await?; Node::Symlink { target } } tag @ (nar::wire::Node::Reg | nar::wire::Node::Exe) => Node::File { executable: tag == nar::wire::Node::Exe, reader: FileReader { inner: BytesReader::new_internal(reader, ..).await?, }, }, nar::wire::Node::Dir => Node::Directory(DirReader::new(reader)), }) } } /// File contents, readable through the [AsyncRead] trait. /// /// It comes with some caveats: /// * You must always read the entire file, unless you intend to abandon the entire archive reader. /// * You must abandon the entire archive reader upon the first error. /// /// It's fine to read exactly `reader.len()` bytes without ever seeing an explicit EOF. pub struct FileReader<'a, 'r> { inner: BytesReader<&'a mut Reader<'r>, PadPar>, } impl<'a, 'r> FileReader<'a, 'r> { pub fn is_empty(&self) -> bool { self.len() == 0 } pub fn len(&self) -> u64 { self.inner.len() } } impl<'a, 'r> AsyncRead for FileReader<'a, 'r> { fn poll_read( self: Pin<&mut Self>, cx: &mut task::Context, buf: &mut io::ReadBuf, ) -> Poll> { Pin::new(&mut self.get_mut().inner).poll_read(cx, buf) } } /// A directory iterator, yielding a sequence of [Node]s. /// It must be fully consumed before reading further from the [DirReader] that produced it, if any. pub struct DirReader<'a, 'r> { reader: &'a mut Reader<'r>, /// Previous directory entry name. /// We have to hang onto this to enforce name monotonicity. prev_name: Option>, } pub struct Entry<'a, 'r> { pub name: Vec, pub node: Node<'a, 'r>, } impl<'a, 'r> DirReader<'a, 'r> { fn new(reader: &'a mut Reader<'r>) -> Self { Self { reader, prev_name: None, } } /// Read the next [Entry] from the directory. /// /// We explicitly don't implement [Iterator], since treating this as /// a regular Rust iterator will surely lead you astray. /// /// * You must always consume the entire iterator, unless you abandon the entire archive reader. /// * You must abandon the entire archive reader on the first error. /// * You must abandon the directory reader upon the first [None]. /// * Even if you know the amount of elements up front, you must keep reading until you encounter [None]. pub async fn next(&mut self) -> io::Result>> { // COME FROM the previous iteration: if we've already read an entry, // read its terminating TOK_PAR here. if self.prev_name.is_some() { read::token(self.reader, &nar::wire::TOK_PAR).await?; } if let nar::wire::Entry::None = read::tag(self.reader).await? { return Ok(None); } let name = wire::read_bytes(self.reader, 1..=nar::wire::MAX_NAME_LEN).await?; if name.contains(&0) || name.contains(&b'/') || name == b"." || name == b".." { return Err(InvalidData.into()); } // Enforce strict monotonicity of directory entry names. match &mut self.prev_name { None => { self.prev_name = Some(name.clone()); } Some(prev_name) => { if *prev_name >= name { return Err(InvalidData.into()); } name[..].clone_into(prev_name); } } read::token(self.reader, &nar::wire::TOK_NOD).await?; Ok(Some(Entry { name, node: Node::new(self.reader).await?, })) } }